DE1252994B - Pressure relief and control device - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. Cl .:

F16k

German KX: 47 g -47/02

Number: 1252994

File number: B 75993 XII / 47 g

Filing date: March 20, 1964

Opening day: October 26, 1967

The invention relates to a pressure relief and control device in which in a housing bore a spring-loaded shut-off valve separating the pump line from the atmosphere and a coaxial one Check valve arranged towards the shut-off valve and separating the pump line upstream of the storage line is provided.

In the known pressure relief and control devices of this type there is a risk that the Shut-off valve when the storage pressure reaches the level of the response pressure of the shut-off valve, starts fluttering and the pumped medium is heated up as a result.

The invention is based on the object by achieving a snap action on the shut-off valve to avoid heating. The shut-off valve should be in an intermediate position without stopping each be either fully open or closed, causing the valve to heat up as a result Throttling of the medium in the shut-off valve is reliably avoided. This is accomplished according to the invention achieved that the shut-off valve and the check valve at an axial distance from each other in the Housing bore are arranged, the one lying between the check valve and shut-off valve Section of the housing bore is connected to the pump line, and that the check valve with is connected to a piston guided displaceably in the housing bore, which in turn is connected to the closing piece of the shut-off valve that opens in the direction of flow or allows a axial play is connected.

As a result, the device according to the invention enables a snap action.

The response pressure of the device is then not only a function of whether the piston is fixed or not loosely connected to the shut-off valve, but also the ratio of the pressurized Areas of the piston and the closing piece of the shut-off valve.

The choice of the connection between the plug and the piston and the ratio between its surfaces enables the valve to be opened with a snap action if desired Function of the pressure on the container, on the pump or in function of both.

Further features within the scope of the invention are characterized in the subclaims.

In the single drawing, an embodiment of the invention is shown in a vertical section.

The pressure relief and control device after the pressure relief and control device

. Applicant:

Bendix-Westinghouse Automotive Air Brake
Company, Elyria, Ohio (V. St. A.)

Representative:
ίο Dipl.-Ing. H. Beglich

and Dipl.-Ing. A. Wasmeier, patent attorneys,
Regensburg, Lessingstr. 10

* 5 Named inventor:

Harry McWalter Valentine,

Robert Joseph Morse, Elyria, Ohio (V. St. A.)

J ₈₀ Claimed priority:

V. St. v. America March 26, 1963 (267 986)

As the invention contains a housing 10 with housing bore sections 12, 14, which are connected to the pump line 20 of a compressor 22 and the storage line 24 of a pressure medium container 26 via openings 16, 18.

The housing 10 contains an upper part 28 and a lower part 30 connected to it by a screw thread, which is provided with an annular shoulder 32 surrounding an outlet opening 34. The exit port 34 leads to an atmospheric bore 35 and is normally closed by a spherical check valve plug 36 which is sealingly engaged with a conical valve seat 38 on the outer or downstream side of the exit port 34. The lower end of a bolt 42 , which is provided with screw thread, is screwed into a central bore 40 of the closure piece 36 and extends upward through the section 12 and is mounted displaceably in a bore 44 with its upper end. The bore 44 is provided in the lower end of a piston 46 which is slidably received by a smaller diameter part 47 of the housing bore. The bolt 42 carries at its upper end a stop 48 which, in the manner shown, consists of a nut or another collar with upper

709 679/293

3 4

and lower surfaces 50, 52 may exist. If there is a hold, the compressor is relieved and delivers See the bottom surface 52 of the stop 48 doing all of its work directly to the atmosphere and the shoulder 32 which becomes the exit port 34 through the open exit port 34. Thus surrounds, a regulating spring 54 is switched on, including all the liquid which is connected to the closure piece 36 at any time in its conduit 20 or in the housing section 12 in the pump switch Position presses. should have collected, to the atmosphere through the

The piston 46 is emptied from an elongated, cylindrical outlet opening 34.

Shape and has a lower end 56, with which it should now be assumed that the pressure with the upper Hache 50 of the stop 48 begins to fall in the container 26 and continues to fall, when it is in a grip continue down until it reaches a height where the moves down in the manner written. The downward force 46 acting on the piston piston 46 is provided with a one-piece, annular collar 58 less than the upward force of the piston 46, the lower surface of which has an upper support, the piston 46 acting through the stop 48 for the flat, inner part of a cup conveyor spring 54 is. In this case, the parts of the shaped sleeve 62 made of elastic material of a valve begin to form in the direction of their upper position in the non-return valve 60, which moves in the direction of the figure and continues to lie in this housing bore section 14. Move the lower side direction until the closure piece 36 with the cuff 62 rests on a ring 64 which engages the conical seat 38 and closes by a snap ring 56 in a groove around the through the outlet opening. Immediately piston 56 is held around. The non-return so then builds up in the housing section 12 pressure valve 60 allows the flow medium to and acts on the underside of the piston 46. As a result of pressure on the circumference of the cuff 62 by it is in its fully raised position in the section 12 flows along to section 14, the drawing being driven with a snap action, but flow in the reverse direction preventing the flow medium from flowing at the circumference. 35 of the cuff 62 to the container 26 until In operation, the fluid flows under the pressure in the system to a level other than the assumption that initially no pressure grows in that sufficient to the closure 36 of container 26 when there is take off the compressor 22 from its seat, whereupon the one above is operated through the pump line 20 and the written work cycle is repeated.
Inlet opening 16 into the housing bore section 30. The shut-off valve can be moved between its open 14 and from there to the container 26 through the open and closed positions independently of the opening 18 and the line 24. If the compressor piston 46 is movable, which continues to operate independently, the pressure builds up in the entire system due to the displaceable mounting and acts downwards on the shut-off piston bore 44 on the upper end of the bolt valve closure piece 36 through the outlet opening 35 42 is reached. With this arrangement 34. The effective surface of the locking piece is the locking piece 36, should the piston 46 get caught on the housing for any reason as a function of the diameter of the outlet opening, and if the surface on this effective surface is still in its Move open position when the kende system pressure exceeds the upward or system pressure a predetermined, by the spring closing force of the spring 54, the adjusted high value 40 54 is reached. It thus acts closing piece 36 pushed away from its seat 38 and as a safety valve to prevent the build-up of the system so that the entire cross-sectional area of the valve pressure above a safety level, the system pressure so that it works with it in its full The valve according to the invention but not open position is driven with a snap action only as an unloader and as a shut-off. When this occurs, all of the pressure prevailing in the 45 and safety valve, but through a selected housing bore section 12 relating to the effective pressurized atmosphere, is expelled with the result that the valve also serves as a compressor regulator. In the case of pressure in the container 26 in the opposite direction corresponding to the dimensions of the pressure applied through the line 24 and the delivery opening 18 to the thrown avengers, the pressure at which the upper side of the cuff 62 acts and the pressure at which the valve opens can differ significantly from that Pressure-sealing engagement with the side wall of the differ at which it closes. In order to push at section 14 and at the same time hold the valve open, for example, until the container exerts a force directed downwards on the piston 46. In the negative pressure has fallen to a level below which there is no counterpressure in the pressure at which the valve is opened, the pump line 20 becomes effective, since this is now essentially that of the diameter of the cuff or the borrowed is at atmospheric pressure due to the reduced diameter bore of the part 47 open position of the closure piece 36. The limited effective cross-sectional area greater than the piston 36 continues downward until its lower diameter is made the outlet opening 34. Thus, edge 56 with the upper surface 50 of the stop will provide a high level of pressure applied to the effective area of the outlet 48, thereby preventing the valve from acting pressure sufficient to cause the spring 54 to move it into its closed position To compress the spring 54 and to return the closure, as long as the downwardly opening piece 36 is directed through a smaller container, is balanced on the upper surface of the piston and the pressure is balanced by the pressure force exerted by the larger effekdes check valve upper side of the cuff and upward force of the spring 54 exceeds. 65 of the piston 46 acts. An additional factor securing a certain lower closing pressure when the closure piece 36 is in the open position and in this position the above-described effect of the piston 46 check valve 60 and the wall of the upper part due to the frictional force between the sleeve 62 of the rear 47

Claims (4)

of the housing after the sleeve 62 has moved into sealing engagement with the wall by the container pressure upon opening of the exhaust valve. Although it is desirable in most applications that there is independent cooperation between the piston 46 and the plug 36 in order that the discharge valve can additionally function as a safety valve as explained above, this embodiment is not essential in that the valve also functions, when the piston and the discharge valve are firmly connected to one another; in certain cases this design may be preferred. Depending on which pressure the valve opens, depends not only on whether the piston 46 is firmly or loosely connected to the shut-off valve, but also on the ratio of the pressurized areas of the piston 46 and the closure piece 36 of the shut-off valve. This results in the following conditions for the ίο dependency of the response pressure of the shut-off valve 36: a) with a fixed connection piston 46 - shut-off valve 36: area ratio> 1: ε * ■ ^ 36 nsprech. 36 '\ * 20 »24 ·" b) with a backlash connection piston 46 - shut-off valve 36: Area ratio 1 <ψ- <1: PAn8sprach. Se = / (P20), where P 20 and P 24 are the pump or accumulator pressure The response pressure of the shut-off valve 36 is thus, depending on the design of the device, a function only of the pump pressure or a function only of the accumulator pressure or a function of pumps and line pressure. 1. Pressure relief and control device in which a spring-loaded, The shut-off valve separating the pump line from the atmosphere and a shut-off valve coaxial to the Check valve arranged on a shut-off valve and separating the pump line in front of the storage line is provided, characterized in that that the shut-off valve (36; 42, 54) and the check valve (60) at an axial distance are arranged from each other in the housing bore, the between the check valve and Shut-off valve lying section (12) of the housing bore connected to the pump line (20) is, and that the check valve with a slidably guided in the housing bore Piston (46) is connected, in turn with the opening in the flow direction Closing piece of the shut-off valve is fixed or connected while allowing axial play. 2. Pressure relief and control device according to claim 1, characterized in that the area of the piston (46) acted upon by the accumulator pressure is greater than that of the pump pressure acted upon surface of the shut-off valve closure piece (36). 3. Pressure relief and control device according to claims 1 and 2, characterized in that that the check valve consists of a cup-shaped arranged on the circumference of the piston (46) The cuff is made of elastic material. 4. Pressure relief and control device, characterized in that the piston (46) on a bolt (42) connected in a form-fitting manner to the closure piece (36) of the shut-off valve, which is provided with a stop (48), is slidably mounted. Considered publications:
German Auslegeschrift No. 1078 395;
U.S. Patent No. 2,680447. 1 sheet of drawings 709 679/293 1D. 67 © Bundesdruckerei Berlin